Laboulbeniomycetes (Fungi, Ascomycota) of Denmark Author Santamaria, Sergi Unitat de Botànica, Departament de Biologia Animal, de Biologia Vegetal i d’Ecologia, Facultat de Biociències, Universitat Autònoma de Barcelona, 08193 Cerdanyola del Vallès (Barcelona), Spain. sergi.santamaria@uab.cat Author Pedersen, Jan Natural History Museum of Denmark (Zoological Museum), University of Copenhagen, Universitetsparken 15, 2100 København Ø, Denmark. japedersen@snm.ku.dk text European Journal of Taxonomy 2021 2021-11-26 781 1 425 http://dx.doi.org/10.5852/ejt.2021.781.1583 journal article 10.5852/ejt.2021.781.1583 2118-9773 5828924 Peyritschiella oxyteli (Cépède & F.Picard) Santam. comb. nov. MB#840614 Fig. 68A–E Basionym : Rheophila oxyteli Cépède & F.Picard, Compte Rendu, Association Française pour l’Avancement des Sciences (part 2): 783 ( Cépède & Picard 1907 ) [MB#432033]. – Type : DENMARK Nordøstsjaelland (NEZ) Indelukket ved Frederiksborg Slot ; 55°56.191′ N , 12°17.861′ E ; UC30; on Anotylus rugosus (Fabricius, 1775) (Col. Staphylinidae Oxytelinae ); 12 Apr. 2016 ; JP 2 ; JP det.; neotype : ZMUC C-F-122472 , here designated . Diagnostic features Thallus asymmetrical, of regular shape in comparison to Peyritschiella protea , yellowish-brown, with parallel margins when in good condition or growing in suitable locations. Lower and middle tiers of cells with three cells of similar size and shape. Typically, one brownish perithecium for each thallus on the upper tier, borne from one of the cells adnate to the median axial cell. Appendages entirely tinged with pale brown, distinctively darker than surrounding cells. Distribution and hosts Usually on Oxytelus , Anotylus and Styloxys Gozis, 1886 (Col. Staphylinidae Oxytelini ), records on other rove beetles require confirmation. According to the list of hosts, P. oxyteli should be found from Europe, America, China (?) and Algeria (see below). Records on Bledius should be maintained in the “true” Peyritschiella protea . The following is a complete list of the published records, but not necessarily pure P. oxyteli , arranged by genus hosts. The specimens should be verified one-by-one to see if they are true P. protea or P. oxyteli . On Oxytelus : United Kingdom ( Thaxter 1900 ), France ( Cépède & Picard 1907 ), USA ( Thaxter 1908 ), Poland ( Siemaszko & Siemaszko 1932 ), the Netherlands ( Middelhoek 1943 ), Hungary ( Bánhegyi 1944 ), Belgium ( Collart 1945 ), Romania ( Bánhegyi 1949 ), Germany ( Scheloske 1969 ), Lithuania ( Markovskaja 2000 ), Sweden ( Huggert 2010 ). On Anotylus : Denmark ( Rostrup 1935 ), Russia , Finland ( Huldén 1983 ), Czech Republic , Austria , France , Germany , Romania , Sweden , United Kingdom , Ireland ( Huldén 1985 ), Poland ( Majewski 1994b ), Lithuania ( Markovskaja 2000 ), Latvia ( De Kesel & Krastina De Kesel 2006 ), Belgium ( De Kesel & Gerstmans 2011 ), the Netherlands ( Haelewaters et al. 2012 ), USA ( Haelewaters et al. 2015b ), Armenia , Bulgaria ( Rossi et al. 2019a ). On Styloxys : France ( Balazuc 1974f ), Italy ( Rossi 1975 ), Spain ( Santamaria 1992b ). On Acrognathus Erichson, 1839 : Sweden ( Huggert 2010 ). On Planeustomus Jacquelin du Val, 1857 : Algeria ( Maire 1920 ), Sweden ( Huggert 2010 ). On Manda Blackwelder, 1952 : Poland ( Majewski 1994b ). On Philonthus : Poland ( Majewski 1994b ), China ? ( Lee et al. 2006 ), Belgium ( De Kesel & Gerstmans 2011 ). On Phloeopora ?: Denmark ( Høier 2009 ). On Platydracus Thomson, 1858 : Panama ( Haelewaters et al. 2017 ). De Kesel et al. (2020) reported P. protea on an undetermined staphylinid. Fig. 68. Peyritschiella spp. A –E . P. oxyteli (Cépède & F.Picard) Santam. comb. nov. A–D . Mature thalli. E . Immature thallus with labelling of cells I, II’, II”; II’’’, III, primary appendage (pa), and perithecium initial (per). – F–G . P. protea Thaxt. F . Mature thallus from Bledius in Spain. G . Mature thallus from type slide kept in FH. Scale bars: 50 µm. Photographs from slides ZMUC C-F-122472 (A–C) (neotype), ZMUC C-F-122702 (D), ZMUC C-F-122809 (E), BCB-SS2016 (F), FH2590 (G) (lectotype). Collections examined from Denmark On Anotylus rugifrons (Hochhuth, 1849) (Col. Staphylinidae Oxytelinae ) DENMARK Østjylland (EJ) Kjellerup ; 56°17.644′ N , 9°25.850′ E ; NH23; 18 Nov. 2017 ; JP 819 ; JP det.; ZMUC C-F-123313 . On Anotylus rugosus (Fabricius, 1775) (Col. Staphylinidae Oxytelinae ) DENMARK Østjylland (EJ) Grejsdal syd for Hornstrup ; 55°44.791′ N , 9°33.051′ E ; NG37; 8 Mar. 2014 ; JP 751 ; JP det.; ZMUC C-F-123245 Havnen i Randers ; 56°27.687′ N , 10°3.546′ E ; NH65; 19 May 2013 ; JP 373 ; JP det.; ZMUC C-F-122856 Kjellerup ; 56°17.282′ N , 9°26.197′ E ; NH23; 22 Nov. 2013 ; JP 111 ; JP det.; ZMUC C-F-122588 ibid.; 56°17.589′ N , 9°26.117′ E ; NH23; 21 Oct. 2017 ; JP 582 ; JP det.; ZMUC C-F-123068 Klostermølle ; 56°2.432′ N , 9°41.629′ E ; NH41; 17 Oct. 2014 ; JP 196 ; JP det.; ZMUC C-F-122675 ibid.; 18 Jan. 2015 ; JP 452; JP det.; ZMUC C-F-122937 Lindholm Hoved i Mossø ; 56°2.772′ N , 9°42.809′ E ; NH41; 18 Jan. 2015 ; JP & H. Liljehult 513 ; JP det.; ZMUC C-F-122996 Ørnsø ved Silkeborg ; 56°9.446′ N , 9°31.488′ E ; NH32; 20 May 2013 ; JP 381 ; JP det.; ZMUC C-F-122864 Serup Skov ; 56°14.504′ N , 9°28.051′ E ; NH23; 26 Mar. 2017 ; JP 242 ; JP det.; ZMUC C-F-122722 Tange å vest for Kjellerup ; 56°17.959′ N , 9°23.462′ E ; NH23; 17 Feb. 2018 ; JP 987 ; JP det.; ZMUC C-F-123494 Vest for Ørnsø ved Silkeborg ; 56°9.126′ N , 9°30.588′ E ; NH32; 10 Nov. 2018 ; JP 1229 ; JP det.; ZMUC C-F-123756 Viemose ved Ringkloster ; 56°0.632′ N , 9°57.400′ E ; NH50; 12 Mar. 2017 ; JP 534 ; JP det.; ZMUC C-F-123018 . – Fyn (F) Gyldenstens inddaemmede Strand ; 55°34.447′ N , 10°7.211′ E ; NG75; 2 Apr. 2014 ; JP 688 ; JP det.; ZMUC C-F-123176 Rishave ; 55°33.475′ N , 10°24.013′ E ; NG85; 19 Apr. 2018 ; JP 1067; JP det.; ZMUC C-F-123584 . – Lolland, Falster, Møn (LFM) Hobyskov ; 54°44.069′ N , 11°15.296′ E ; PF46; 7 Jan. 2018 ; JP 955 ; JP det.; ZMUC C-F-123461 Naesby Strand ; 54°44.625′ N , 11°4.539′ E ; PF36; 23 Feb. 2014 ; JP 554 ; JP det.; ZMUC C-F-123040 Nyord ; 55°2.885′ N , 12°12.380′ E ; UB20; 27 Apr. 2013 ; JP 842 ; JP det.; ZMUC C-F-123337 Stensø ved Nakskov ; 54°49.465′ N , 11°7.254′ E ; PF37; 25 Feb. 2017 ; JP 237 ; JP det.; ZMUC C-F-122717 Vest for Bandholm ; 54°50.303′ N , 11°28.050′ E ; PF57; 3 Jan. 2019 ; JP 1332 ; JP det.; ZMUC C-F-123871 . – Nordøstsjaelland (NEZ) Eriksholm Skov ; 55°41.771′ N , 11°47.912′ E ; PG77; 4 Nov. 2017 ; JP 728 ; JP det.; ZMUC C-F-123221 Faergelunden ; 55°50.540′ N , 12°1.735′ E ; UB19; 16 Nov. 2013 ; JP 597 ; JP det.; ZMUC C-F-123086 Indelukket ved Frederiksborg Slot ; 55°56.191′ N , 12°17.861′ E ; UC30; 12 Apr. 2016 ; JP 2 ; JP det.; ZMUC C-F-122472 ibid.; 19 Mar. 2017 ; JP 671 ; JP det.; ZMUC C-F-123160 Ledøje ; 55°42.601′ N , 12°17.977′ E ; UB37; 18 Apr. 2018 ; JP 1046 ; JP det.; ZMUC C-F-123562 Nord for Risø ; 55°42.184′ N , 12°6.692′ E ; UB17; 14 Dec. 2013 ; R. Aagaard Jensen 622 ; JP det.; ZMUC C-F-123110 Syd for Løjesø i Rude Skov ; 55°49.866′ N , 12°28.551′ E ; UB49; 12 Apr. 2018 ; JP 1033 ; JP det.; ZMUC C-F-123545 Syd for Veddelev ; 55°40.346′ N , 12°4.915′ E ; UB17; 14 Dec. 2013 ; R. Aagaard Jensen 336 ; JP det.; ZMUC C-F-122815 Tisvilde Hegn ; 56°2.171′ N , 12°3.429′ E ; UC11; 27 Jan. 2018 ; JP 974 ; JP det.; ZMUC C-F-123481 Tokkekøb Hegn ; 55°52.334′ N , 12°22.229′ E ; UB39; 6 May 2013 ; JP 331 ; JP det.; ZMUC C-F-122809 Ud for Kongelundsfortet ; 55°33.724′ N , 12°33.731′ E ; UB46; 15 Apr. 2018 ; JP 1050 ; JP det.; ZMUC C-F-123566 . – Nordvestjylland (NWJ) Nord for Landting ved Vinderup ; 56°30.049′ N , 8°45.384′ E ; MH86; 19 Jan. 2015 ; JP 555 ; JP det.; ZMUC C-F-123041 Syd for Stårup ; 56°34.792′ N , 9°5.958′ E ; NH07; 6 Feb. 2015 ; JP 221 ; JP det.; ZMUC C-F-122702 Vest for Vinderup ; 56°28.727′ N , 8°44.810′ E ; MH85; 19 Jan. 2015 ; JP 764 ; JP det.; ZMUC C-F-123258 . – Nordvestsjaelland (NWZ) Bjerge Sydstrand ; 55°33.493′ N , 11°9.730′ E ; PG35; 1 May 2013 ; JP 301 ; JP det.; ZMUC C-F-122780 Bognaes SkovTuse Naes ; 55°44.966′ N , 11°45.817′ E ; PG78; 10 Dec. 2013 ; JP 890 ; JP det.; ZMUC C-F-123388 Flasken nord for Reersø ; 55°31.965′ N , 11°9.831′ E ; PG35; 26 Jan. 2014 ; JP 604 ; JP det.; ZMUC C-F-123093 Nordbredden af Skarresø ; 55°39.425′ N , 11°22.998′ E ; PG47; 1 May 2013 ; JP 848 ; JP det.; ZMUC C-F-123343 ibid.; 55°39.469′ N , 11°23.147′ E ; PG47; 21 Apr. 2018 ; JP 1057 ; JP det.; ZMUC C-F-123574 Nordøstbredden af Tissø ; 55°35.612′ N , 11°18.461′ E ; PG46; 1 May 2013 ; JP 760 ; JP det.; ZMUC C-F-123254 Nordbredden af Tissø ved Halleby Å’s udløb; 55°35.602′ N , 11°18.532′ E ; PG46; 18 Feb. 2017 ; JP 386 ; JP det.; ZMUC C-F-122869 Vesterlyng ; 55°44.195′ N , 11°17.276′ E ; PG47; 9 Feb. 2014 ; JP 634 ; JP det.; ZMUC C-F-123123 . – Sydjylland (SJ) Braenøre Mose ; 55°23.906′ N , 9°25.714′ E ; NG23; 5 Aug. 2018 ; JP 1164 ; JP det.; ZMUC C-F-123689 Mørksø Sydøst for Kliplev ; 54°52.481′ N , 9°26.561′ E ; NF28; 1 Nov. 2013 ; JP 356 ; JP det.; ZMUC C-F-122838 Store Søgård Sø ; 54°56.251′ N , 9°27.063′ E ; NF28; 23 Apr. 2000 ; H. Liljehult 327 ; JP det.; ZMUC C-F-122805 . – Sydsjaelland (SZ) Denderup Sø i Denderup Vaenge ; 55°15.075′ N , 11°57.366′ E ; PG82; 5 May 2016 ; JP 494 ; JP det.; ZMUC C-F-122978 Enemaerket ved Naesbyholm ; 55°22.429′ N , 11°36.776′ E ; PG63; 17 Nov. 2019 ; JP 1559 ; JP det.; ZMUC C-F-124320 Gammel Kalvehave ; 54°59.745′ N , 12°8.232′ E ; UA19; 24 Mar. 2018 ; JP 1010 ; JP det.; ZMUC C-F-123517 ibid.; 27 Apr. 2018 ; JP 1084 ; JP det.; ZMUC C-F-123602 ibid.; 25 Apr. 2019 ; JP 1450 ; JP det.; ZMUC C-F-124000 Holmegårds Mose ; 55°17.685′ N , 11°47.928′ E ; PG73; 31 Mar. 2019 ; JP 1409 ; JP det.; ZMUC C-F-123955 Krobaek i Sjolte Skov ; 55°10.772′ N , 12°0.863′ E ; UB11; 17 Feb. 2019 ; JP 1377 ; JP det.; ZMUC C-F-123918 Praestø ; 55°6.913′ N , 12°2.035′ E ; UB11; 25 Apr. 2019 ; JP 1434 ; JP det.; ZMUC C-F-123981 Tryggevaelde Å ved Varpelev ; 55°21.055′ N , 12°15.877′ E ; UB23; 6 Jan. 2018 ; JP 970 ; JP det.; ZMUC C-F-123477 . – Vestjylland (WJ) Velling ; 56°3.078′ N , 8°18.596′ E ; MH51; 16 Dec. 2018 ; JP 1259 ; JP det.; ZMUC C-F-123787 . Other material examined Lectotype of Peyritschiella protea GERMANY • “ Peyritschiella protea , slide from FH , #2590, barcode 00313501, lectotype , on legs of Bledius tricornis (Herbst, 1784) , from Thuringia (Germany), ex British Museum coll.”; FH[00313501] [the slide consists of ten thalli in poor condition ( Fig. 68G )] [lectotype designated by Haelewaters et al. 2015b: 469 ] Remarks Peyritschiella protea was described by Thaxter (1900: 427 [MB#181317]) on Bledius , Oxytelus and Acrognathus from Europe. In his second monograph, Thaxter (1908: 260) wrote about P. protea : “The specimens from Bledius bicornis Germ. are regarded as the type forms, and both figures have been drawn from this material”. In his description Thaxter mentioned the variability of this species but preferred not to split it. Nearly at the same time, Cépède & Picard (1907) described Rheophila oxyteli on Oxytelus rugosus from France with a too brief description and lacking any illustration. Shortly after, the same authors ( Cépède & Picard 1908 ) synonymized their taxon with P. protea with almost no explanation. Later, Thaxter (1931) included Rheophila oxyteli among the synonyms of P. protea in agreement with the opinion of Cépède & Picard. Nevertheless, although the synonymy at the genus level is beyond doubt, this is not true at the species level. After studying the abundant material on Oxytelus and Anotylus collected from Denmark , we have observed enough differences of these thalli with those that should be considered as the “true” P. protea (e.g., on Bledius from Spain , Fig. 68F ; Santamaria 1989 ), and after examination of all the available material we detected enough characters to separate two species. To support this argument we decided to borrow the type material of P. protea from FH. With the name Peyritschiella oxyteli comb. nov. we restore an old taxon preserving the specific epithet published by Cépède & Picard (1907) and a neotype is here designated because the entire Picard collection is thought to be lost (see Catalogue organization under the Material and methods section). Peyritschiella protea and P. oxyteli comb. nov. can be easily distinguished by several characteristics. Representative thalli of P. oxyteli comb. nov. consist of a lower tier of cells including only three main, large, subequal cells; the middle tier consists of a large central, nearly rectangular cell, flanked by two cells, which later may divide to give rise to antheridia; the upper tier is variably broadened, although the central cell continues to be as large as those below which form the main axis of the thallus. The lower and middle tiers, less so the upper tier, show almost parallel margins. The upper tier supports one large, ovoid, brown perithecium, flanked with short brownish appendages at both sides. The brown colour of perithecium and appendages contrasts with the remainder paler yellowish thallus. Moreover, perithecium and appendages are asymmetrically arranged on the upper tier. When over-mature, a second perithecium may appear laterally from the second tier of cells. Older and damaged thalli may develop additional perithecia and should be discarded to properly distinguish the species. Thalli of P. protea show an irregular shape, with divergent margins, and a very variable number of cells for each tier. The lower tier consists of more than three cells. Also, the perithecia are very variable in position and number, without an evident pattern; the appendages which are abundant in the upper tier, but also present in the middle tier, are always pale, even paler than the receptacle itself. Records without accompanying figures are difficult to assign to one or the other of these two species. Majewski (1994b : pl. 96, fig. 1) included a drawing of a thallus from Manda that may represent an undescribed species; the medium and small sized thalli represented by Majewski (1994b : pl. 96 figs 4–8) are typical P. oxyteli comb. nov. De Kesel et al. (2020 : fig. 67a–c) illustrated typical thalli of P. oxyteli comb. nov. , as P. protea , on Anotylus rugosus from Belgium .